A method for surface planarization of an object using a light source of a specific wavelength according to an embodiment includes: providing an object in a main chamber; injecting an etching gas into the main chamber; inputting the light source of a specific wavelength onto a surface of the object; and controlling a temperature of the object. According to the method, it is possible to minimize the side effects such as scratches or contamination of the sample that occur in a conventional chemical-mechanical planarization process. In addition, it is possible to allow precise planarization in nanometers (nm) and simultaneously perform planarization to a side surface of a device as well as a large-sized surface, thereby reducing cost and time required for the planarization process. Moreover, since the surface roughness and the electrical conductivity are improved, it is possible to increase the efficiency and output of the LED device.
Legal claims defining the scope of protection, as filed with the USPTO.
1. A method for surface planarization of an object using a light source of a specific wavelength, comprising: providing an object, to which planarization is to be performed, in a main chamber; injecting an etching gas into the main chamber; inputting the light source of a specific wavelength onto a surface of the object; and controlling a temperature of the object, wherein the object is a film, and the inputting of the light source of the specific wavelength onto the surface of the object is continuously performed until immediately before a roughness of the surface of the film is increased again due to a decrease of a size of grains of the film.
2. The method for surface planarization of an object using a light source of a specific wavelength according to claim 1 , wherein the etching gas is at least one of Cl 2 , Br 2 , CF 4 , SF 6 and HBr.
3. The method for surface planarization of an object using a light source of a specific wavelength according to claim 2 , wherein the wavelength of the light source is determined based on at least the kind of the etching gas.
4. The method for surface planarization of an object using a light source of a specific wavelength according to claim 1 , wherein in the controlling of the temperature of the object, the temperature is controlled so that the temperature of an entire surface of the object to which the light source is input becomes uniform.
5. The method for surface planarization of an object using a light source of a specific wavelength according to claim 4 , wherein the controlling of the temperature of the object includes: monitoring the roughness of the surface of the object; and controlling the temperature of the object again based on the monitoring result.
6. The method for surface planarization of an object using a light source of a specific wavelength according to claim 5 , wherein the controlling of the temperature of the object is performed by heating using an electrode connected to a heating plate to which the object is attached.
7. The method for surface planarization of an object using a light source of a specific wavelength according to claim 1 , wherein the light source is formed to have uniform distribution by using a beam shaping lens.
8. The method for surface planarization of an object using a light source of a specific wavelength according to claim 1 , wherein the light source has a visible light wavelength band.
9. The method for surface planarization of an object using a light source of a specific wavelength according to claim 1 , wherein the film is made of at least one of ITO, FTO, ZnO, TiO 2 , SnO 2 , AZO (aluminum-doped ZnO) and GZO (gallium-doped ZnO).
10. The method for surface planarization of an object using a light source of a specific wavelength according to claim 1 , wherein the object is selected from silicon (Si), III-IV compound semiconductors, oxide materials and organic polymers.
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February 8, 2019
March 30, 2021
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